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package io.hypersistence.utils.hibernate.id;

import org.hibernate.HibernateException;
import org.hibernate.MappingException;
import org.hibernate.boot.model.naming.Identifier;
import org.hibernate.boot.model.relational.Database;
import org.hibernate.boot.model.relational.QualifiedName;
import org.hibernate.boot.model.relational.QualifiedNameParser;
import org.hibernate.boot.model.relational.SqlStringGenerationContext;
import org.hibernate.dialect.Dialect;
import org.hibernate.engine.jdbc.env.spi.JdbcEnvironment;
import org.hibernate.engine.jdbc.spi.JdbcCoordinator;
import org.hibernate.engine.spi.SharedSessionContractImplementor;
import org.hibernate.id.BulkInsertionCapableIdentifierGenerator;
import org.hibernate.id.Configurable;
import org.hibernate.id.IdentifierGenerationException;
import org.hibernate.id.PersistentIdentifierGenerator;
import org.hibernate.id.enhanced.Optimizer;
import org.hibernate.id.enhanced.SequenceStructure;
import org.hibernate.internal.util.config.ConfigurationHelper;
import org.hibernate.service.ServiceRegistry;
import org.hibernate.type.Type;

import java.io.Serializable;
import java.math.BigDecimal;
import java.math.BigInteger;
import java.sql.PreparedStatement;
import java.sql.ResultSet;
import java.sql.SQLException;
import java.util.*;
import java.util.concurrent.locks.Lock;
import java.util.concurrent.locks.ReentrantLock;

/**
 * A sequence generator that uses a recursive query to fetch multiple
 * values from a sequence in a single database access.
 *
 * 

Parameters

* The following configuration parameters are supported: *
*
{@value #SEQUENCE_PARAM}
*
mandatory, name of the sequence to use
*
{@value #FETCH_SIZE_PARAM}
*
optional, how many sequence numbers should be fetched at a time, * default is {@value #DEFAULT_FETCH_SIZE}
*
* *

SQL

* Per default the generated SELECT will look something like this *

 * WITH RECURSIVE t(n) AS (
 *   SELECT 1
 *     UNION ALL
 *   SELECT n + 1
 *   FROM t
 *   WHERE n < ?)
 * SELECT nextval(seq_xxx)
 *   FROM t;
 * 
* *

DB2

* For DB2 the generated SELECT will look something like this *

 * WITH t(n) AS (
 *   SELECT 1 AS n
 *     FROM (VALUES 1)
 *       UNION ALL
 *     SELECT n + 1 AS n
 *       FROM t
 *      WHERE n < ?)
 * SELECT next value for SEQ_CHILD_ID AS n
 *   FROM t;
 * 
* *

HSQLDB

* For HSQLDB the generated SELECT will look something like this *

 * SELECT next value for seq_parent_id
 *   FROM UNNEST(SEQUENCE_ARRAY(1, ?, 1));
 * 
* *

Oracle

* For Oracle the generated SELECT will look something like this * because Oracle does not support using recursive common table * expressions to fetch multiple values from a sequence. *

 * SELECT seq_xxx.nextval
 * FROM dual
 * CONNECT BY rownum <= ?
 * 
* *

SQL Server

* For SQL Server the generated SELECT will look something like this *

 * WITH t(n) AS (
 *   SELECT 1 AS n
 *     UNION ALL
 *   SELECT n + 1 AS n
 *     FROM t
 *    WHERE n < ?)
 * SELECT NEXT VALUE FOR seq_xxx AS n
 *   FROM t
 * 
* *

Firebird

* For Firebird the generated SELECT will look something like this *

 * WITH RECURSIVE t(n, level_num) AS (
 *   SELECT NEXT VALUE FOR seq_xxx AS n, 1 AS level_num
 *   FROM rdb$database
 *     UNION ALL
 *   SELECT NEXT VALUE FOR seq_xxx AS n, level_num + 1 AS level_num
 *     FROM t
 *    WHERE level_num < ?)
 * SELECT n
 *   FROM t
 * 
* *

Database Support

* The following RDBMS have been verified to work *
    *
  • DB2
  • *
  • Firebird
  • *
  • Oracle
  • *
  • H2
  • *
  • HSQLDB
  • *
  • MariaDB
  • *
  • Postgres
  • *
  • SQL Sever
  • *
*

* In theory any RDBMS that supports {@code WITH RECURSIVE} and * sequences is supported. *

* For more details about how to use it, check out this article on vladmihalcea.com. * * @author Philippe Marschall * @since 2.14.0 */ public class BatchSequenceGenerator implements BulkInsertionCapableIdentifierGenerator, PersistentIdentifierGenerator, Configurable { /** * Indicates the name of the sequence to use, mandatory. */ public static final String SEQUENCE_PARAM = "sequence"; /** * Indicates how many sequence values to fetch at once. The default value is {@link #DEFAULT_FETCH_SIZE}. */ public static final String FETCH_SIZE_PARAM = "fetch_size"; /** * The default value for {@link #FETCH_SIZE_PARAM}. */ public static final int DEFAULT_FETCH_SIZE = 10; private final Lock lock = new ReentrantLock(); // Initialized during configure phase private int fetchSize; private QualifiedName sequenceName; private IdentifierExtractor identifierExtractor; private SequenceStructure sequenceStructure; // Initialized during initialize phase private String select; private IdentifierPool identifierPool; @Override public void configure(Type type, Properties params, ServiceRegistry serviceRegistry) throws MappingException { JdbcEnvironment jdbcEnvironment = serviceRegistry.getService(JdbcEnvironment.class); this.sequenceName = determineSequenceName(params, jdbcEnvironment); this.fetchSize = determineFetchSize(params); this.identifierExtractor = IdentifierExtractor.getIdentifierExtractor(type.getReturnedClass()); this.sequenceStructure = this.buildSequenceStructure(type, sequenceName, jdbcEnvironment); } @Override public void initialize(SqlStringGenerationContext context) { Dialect dialect = context.getDialect(); String sequenceNextValString = dialect .getSequenceSupport() .getSelectSequenceNextValString( context.format(this.sequenceName) ); this.identifierPool = IdentifierPool.empty(); this.sequenceStructure.initialize(context); this.select = buildSelect(sequenceNextValString, dialect); } private static String buildSelect(String nextValString, Dialect dialect) { if (dialect instanceof org.hibernate.dialect.OracleDialect) { return "SELECT " + nextValString + " FROM dual CONNECT BY rownum <= ?"; } if (dialect instanceof org.hibernate.dialect.SQLServerDialect) { // No RECURSIVE return "WITH t(n) AS ( " + "SELECT 1 AS n " + "UNION ALL " +"SELECT n + 1 AS n FROM t WHERE n < ?) " // sequence generation outside of WITH + "SELECT " + nextValString + " AS n FROM t"; } if (dialect instanceof org.hibernate.dialect.DB2Dialect) { // No RECURSIVE return "WITH t(n) AS ( " + "SELECT 1 AS n " // difference + "FROM (VALUES 1) " + "UNION ALL " +"SELECT n + 1 AS n FROM t WHERE n < ?) " // sequence generation outside of WITH + "SELECT " + nextValString + " AS n FROM t"; } if (dialect instanceof org.hibernate.dialect.HSQLDialect) { // https://stackoverflow.com/questions/44472280/cte-based-sequence-generation-with-hsqldb/52329862 return "SELECT " + nextValString + " FROM UNNEST(SEQUENCE_ARRAY(1, ?, 1))"; } if(dialect instanceof org.hibernate.dialect.PostgreSQLDialect) { return "SELECT " + nextValString + " FROM generate_series(1, ?)"; } return "WITH RECURSIVE t(n) AS (" + "SELECT 1 " + "UNION ALL " + "SELECT n + 1" + " FROM t " + " WHERE n < ?) " + "SELECT " + nextValString + " FROM t"; } private SequenceStructure buildSequenceStructure(Type type, QualifiedName sequenceName, JdbcEnvironment jdbcEnvironment) { return new SequenceStructure(jdbcEnvironment, "orm", sequenceName, 1, 1, type.getReturnedClass()); } /** * Determine the name of the sequence (or table if this resolves to a physical table) * to use. *

* Called during {@linkplain #configure configuration}. * * @param params The params supplied in the generator config (plus some standard useful extras). * @param jdbcEnv The JdbcEnvironment * @return The sequence name */ private static QualifiedName determineSequenceName( Properties params, JdbcEnvironment jdbcEnv) { String sequenceName = params.getProperty(SEQUENCE_PARAM); if (sequenceName == null) { throw new MappingException("no squence name specified"); } final Identifier catalog = jdbcEnv.getIdentifierHelper().toIdentifier(params.getProperty(CATALOG)); final Identifier schema = jdbcEnv.getIdentifierHelper().toIdentifier(params.getProperty(SCHEMA)); if(sequenceName.contains(".")) { return QualifiedNameParser.INSTANCE.parse(sequenceName); } return new QualifiedNameParser.NameParts( catalog, schema, jdbcEnv.getIdentifierHelper().toIdentifier( sequenceName ) ); } private static int determineFetchSize(Properties params) { int fetchSize = ConfigurationHelper.getInt(FETCH_SIZE_PARAM, params, DEFAULT_FETCH_SIZE); if (fetchSize <= 0) { throw new MappingException("fetch size must be positive"); } return fetchSize; } @Override public boolean supportsBulkInsertionIdentifierGeneration() { return true; } @Override public String determineBulkInsertionIdentifierGenerationSelectFragment(SqlStringGenerationContext sqlStringGenerationContext) { return sqlStringGenerationContext.getDialect().getSequenceSupport().getSequenceNextValString(sqlStringGenerationContext.format(sequenceStructure.getPhysicalName())); } @Override public Serializable generate(SharedSessionContractImplementor session, Object object) throws HibernateException { this.lock.lock(); try { if (this.identifierPool.isEmpty()) { this.identifierPool = this.replenishIdentifierPool(session); } return this.identifierPool.next(); } finally { this.lock.unlock(); } } private String getSequenceName() { return this.sequenceStructure.getPhysicalName().render(); } @Override public void registerExportables(Database database) { this.sequenceStructure.registerExportables(database); } private IdentifierPool replenishIdentifierPool(SharedSessionContractImplementor session) throws HibernateException { JdbcCoordinator coordinator = session.getJdbcCoordinator(); List identifiers = new ArrayList<>(this.fetchSize); try (PreparedStatement statement = coordinator.getStatementPreparer().prepareStatement(this.select)) { statement.setFetchSize(this.fetchSize); statement.setInt(1, this.fetchSize); try (ResultSet resultSet = coordinator.getResultSetReturn().extract(statement)) { while (resultSet.next()) { identifiers.add(this.identifierExtractor.extractIdentifier(resultSet)); } } } catch (SQLException e) { throw session.getJdbcServices().getSqlExceptionHelper().convert( e, "could not get next sequence value", this.select); } if (identifiers.size() != this.fetchSize) { throw new IdentifierGenerationException("expected " + this.fetchSize + " values from " + this.getSequenceName() + " but got " + identifiers.size()); } return IdentifierPool.forList(identifiers); } @Override public Optimizer getOptimizer() { return null; } /** * Holds a number of prefetched identifiers. */ static final class IdentifierPool { private final Iterator iterator; private IdentifierPool (List identifiers) { this.iterator = identifiers.iterator(); } static IdentifierPool forList(List identifiers) { return new IdentifierPool(identifiers); } static IdentifierPool empty() { return new IdentifierPool(Collections.emptyList()); } boolean isEmpty() { return !this.iterator.hasNext(); } Serializable next() { return this.iterator.next(); } } /** * Extracts a {@link Serializable} identifier from a {@link ResultSet}. * * @see org.hibernate.id.IntegralDataTypeHolder */ enum IdentifierExtractor { INTEGER_IDENTIFIER_EXTRACTOR { @Override Serializable extractIdentifier(ResultSet resultSet) throws SQLException { int intValue = resultSet.getInt(1); if (resultSet.wasNull()) { throw new IdentifierGenerationException("sequence returned null"); } return intValue; } }, LONG_IDENTIFIER_EXTRACTOR { @Override Serializable extractIdentifier(ResultSet resultSet) throws SQLException { long longValue = resultSet.getLong(1); if (resultSet.wasNull()) { throw new IdentifierGenerationException("sequence returned null"); } return longValue; } }, BIG_INTEGER_IDENTIFIER_EXTRACTOR { @Override Serializable extractIdentifier(ResultSet resultSet) throws SQLException { BigDecimal bigDecimal = resultSet.getBigDecimal(1); if (resultSet.wasNull()) { throw new IdentifierGenerationException("sequence returned null"); } return bigDecimal.setScale(0, BigDecimal.ROUND_UNNECESSARY).toBigInteger(); } }, BIG_DECIMAL_IDENTIFIER_EXTRACTOR { @Override Serializable extractIdentifier(ResultSet resultSet) throws SQLException { BigDecimal bigDecimal = resultSet.getBigDecimal(1); if (resultSet.wasNull()) { throw new IdentifierGenerationException("sequence returned null"); } return bigDecimal; } }; abstract Serializable extractIdentifier(ResultSet resultSet) throws SQLException; static IdentifierExtractor getIdentifierExtractor(Class integralType) { if ((integralType == Integer.class) || (integralType == int.class)) { return INTEGER_IDENTIFIER_EXTRACTOR; } if ((integralType == Long.class) || (integralType == long.class)) { return LONG_IDENTIFIER_EXTRACTOR; } if (integralType == BigInteger.class) { return BIG_INTEGER_IDENTIFIER_EXTRACTOR; } if (integralType == BigDecimal.class) { return BIG_DECIMAL_IDENTIFIER_EXTRACTOR; } throw new IdentifierGenerationException("unsupported integral type: " + integralType); } } @Override public String toString() { // for debugging only return this.getClass().getSimpleName() + '(' + this.getSequenceName() + ')'; } }





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